Simple shear presents a local material structure–property relationship and plays an
important role in the development of material design, mechanical modeling, and …

Enhancing strength-ductility synergy of materials has always been a hot but difficult topic in
material science, for most structural materials, steels in particular, it is inevitable to sacrifice …

The aim of this article is to study the accuracy of finite element simulations in predicting the
tool force occurring during the single point incremental forming (SPIF) process. The forming …

The mechanical behavior of the alloy Ti–6Al–4V is characterized using uniaxial tension,
uniaxial compression, simple shear and plane strain tests in three orthogonal material …

A systematic study of the evolution of the microstructure and crystallographic texture during
free end torsion of a single phase magnesium alloy Mg–3Al–0.3 Mn (AM30) was carried out …

Fatigue crack growth assessment of 2024-T3 aluminum alloy is carried out on the basis of a
recently developed peridynamic fatigue model. The governing remaining-life equation of the …

In this study, a 3D thermal model of laser cladding by powder injection applied to Ti-6Al-4V
is developed. The manufactured part is made of a Ti-6Al-4V substrate on which successive …

Abstract A CPB06-based Stewart-Cazacu micromechanical damage model is implemented
and validated for Ti6Al4V material. It provides accurate numerical predictions in terms of …

This paper reports the sensitivity of the thermal and the displacement histories predicted by
a finite element analysis to material properties and boundary conditions of a directed-energy …

In this paper it is demonstrated that only by accounting for the combined effects of anisotropy
and tension–compression asymmetry at polycrystal level, it is possible to explain and …